Magnetic Treatment of Irrigation Water and Snow Pea
The effects of magnetic treatment of irrigation water and snow pea (Pisum sativum L var. macrocarpon) and Kabuli chickpea (Cicer arietinum L) seeds on the emergence, early growth and nutrient
Magnetic treatment of irrigation water and snow pea and chickpea seeds enhances early growth and nutrient contents of seedlings
Magnetic treatment of irrigation water and snow pea
The effects of magnetic treatment of irrigation water and snow pea (Pisum sativum L var. macrocarpon) and Kabuli chickpea (Cicer arietinum L) seeds on the emergence, early growth and nutrient contents of seedlings were investigated under glasshouse conditions.The treatments included (i) magnetic treatment of irrigation water (MTW), (ii) magnetic treatment of seeds (MTS), (iii) magnetic
Magnetic treatment of irrigation water and snow pea and chickpea seeds enhances early growth and nutrient contents of seedlings. Grewal HS(1), Maheshwari BL. Author information: (1)University of Western Sydney, Penrith South DC, NSW, Australia.
Magnetic treatment of irrigation water and snow pea
The effects of magnetic treatment of irrigation water and snow pea (Pisum sativum L var. macrocarpon) and Kabuli chickpea (Cicer arietinum L) seeds on the emergence, early growth and nutrient contents of seedlings were investigated under glasshouse conditions.
Magnetic remedies (blankets, patches, bracelets, etc.) Low frequency (0.1 Hz–1 kHz) Power generation and distribution Power network Overhead power lines Underground cables Substations Exposure sources at home Traction power system 16.7 Hz Intermediate frequency (1 kHz–10 MHz)
Magnetic treatment of irrigation water: Its effects
Except for 3000 ppm saline water, the magnetic treatment of irrigation water had no significant effect on EC 1:5 values after the harvest of celery plants (Table 5, Table 6). On the other hand, overall, the magnetic treatment resulted in significant effects on EC 1:5 value after harvest for snow pea plants when compared with the control treatment.
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Process Design Manual Land Treatment of Municipal
----- Contents Notice ii Foreword iii Abstract iv Contents v Figures viii Tables x Acknowledgments xiii Chapter 1 Introduction and Process Capabilities 1-1 1.1 Purpose 1-1 1.2 Scope 1-1 1.3 Treatment Processes 1-1 1.4 Slow Rate Land Treatment 1-2 1.5 Overland Flow Treatment 1-4 1.6 Soil Aquifer Treatment 1-4 1.7 Limiting Design Parameter Concept 1-7 1.8 Guide to Intended Use of Manual 1-7 1.9
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Hunker may earn compensation through affiliate links in this story. Image Credit: Walmart We're calling it: This is the year you'll filter your Halloween nostalgia through the lens of your current, modern design style, and leave your old exclusively neon gear behind.
- Do azo dyes affect wetland performance?
- In this study, artificial wastewater containing two azo dyes (BR46 and AB113) was assessed at the concentrations of 7 and 208 mg/l for the contact times of 48 and 94 h with respect to their impact on the constructed wetland performance.
- Which azo dyes are used in textile industry-processing effluents?
- Two azo textile dyes [Acid Blue 113 (AB113) and Basic Red 46 (BR46)] were selected in this research with two different concentrations: low with a target concentration of 5 mg/l and high with a target concentration of 200 mg/l. Typically, textile industry-processing effluents contain dyes in the range between 10 and 200 mg/l (Lavanya et al. 2014 ).
- Can azo dyes be treated with hydroponic pond systems?
- No long-term study has been found in the literature on the treatment of synthetic wastewater containing azo dyes mixed with chemicals simulating effluents from textile mills using hydroponic pond systems vegetated with free-floating plants.
- How is azo dye acid yellow 2G treated?
- Yalcuk A, Dogdu G (2014) Treatment of azo dye Acid Yellow 2G by using lab-scale vertical-flow intermittent feeding constructed wetlands. J Selcuk Univ Nat Appl Sci:355–368
